发育中大鼠大脑的可溶性和微粒体部分对长链脂肪酰辅酶A硫酯的合成与水解作用
The synthesis and hydrolysis of long-chain fatty acyl-coenzyme A thioesters by soluble and microsomal fractions from the brain of the developing rat.
作者信息
Brophy P J, Vance D E
出版信息
Biochem J. 1976 Nov 15;160(2):247-51. doi: 10.1042/bj1600247.
Abstract
- The specific activities of long-chain fatty acid-CoA ligase (EC6.2.1.3) and of long-chain fatty acyl-CoA hydrolase (EC3.1.2.2) were measured in soluble and microsomal fractions from rat brain. 2. In the presence of either palmitic acid or stearic acid, the specific activity of the ligase increased during development; the specific activity of this enzyme with arachidic acid or behenic acid was considerably lower. 3. The specific activities of palmitoyl-CoA hydrolase and of stearoyl-CoA hydrolase in the microsomal fraction decreased markedly (75%) between 6 and 20 days after birth; by contrast, the corresponding specific activities in the soluble fraction showed no decline. 4. Stearoyl-CoA hydrolase in the microsomal fraction is inhibited (99%) by bovine serum albumin; this is in contrast with the microsomal fatty acid-chain-elongation system, which is stimulated 3.9-fold by albumin. Inhibition of stearoyl-CoA hydrolase does not stimulate stearoyl-CoA chain elongation. Therefore it does not appear likely that the decline in the specific activity of hydrolase during myelogenesis is responsible for the increased rate of fatty acid chain elongation. 5. It is suggested that the decline in specific activity of the microsomal hydrolase and to a lesser extent the increase in the specific activity of the ligase is directly related to the increased demand for long-chain acyl-CoA esters during myelogenesis as substrates in the biosynthesis of myelin lipids.
摘要
- 测定了大鼠脑可溶性部分和微粒体部分中长链脂肪酸 - 辅酶A连接酶(EC6.2.1.3)和长链脂肪酰 - 辅酶A水解酶(EC3.1.2.2)的比活性。2. 在棕榈酸或硬脂酸存在的情况下,连接酶的比活性在发育过程中增加;该酶对花生酸或山嵛酸的比活性则相当低。3. 微粒体部分中棕榈酰 - 辅酶A水解酶和硬脂酰 - 辅酶A水解酶的比活性在出生后6至20天之间显著下降(75%);相比之下,可溶性部分中相应的比活性没有下降。4. 微粒体部分中的硬脂酰 - 辅酶A水解酶受到牛血清白蛋白的抑制(99%);这与微粒体脂肪酸链延长系统相反,后者受到白蛋白的刺激,活性提高3.9倍。硬脂酰 - 辅酶A水解酶的抑制并不刺激硬脂酰 - 辅酶A链的延长。因此,在髓鞘形成过程中水解酶比活性的下降似乎不太可能是脂肪酸链延长速率增加的原因。5. 有人提出,微粒体水解酶比活性的下降以及在较小程度上连接酶比活性的增加,与髓鞘形成过程中对长链酰基辅酶A酯作为髓鞘脂生物合成底物的需求增加直接相关。
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